Cyanobacterial Argonautes and Cas4 family nucleases cooperate to interfere with invading DNA

Pilar Bobadilla Ugarte; Stefanie Halter; Sumanth K Mutte; Clint Heijstek; Theophile Niault; Ilya Terenin; Patrick Barendse; Balwina Koopal; Mark Roosjen; Sjef Boeren; Vasili Hauryliuk; Martin Jinek; Adrie H Westphal; Daan C Swarts

doi:10.1016/j.molcel.2025.03.025

Cyanobacterial Argonautes and Cas4 family nucleases cooperate to interfere with invading DNA

Pilar Bobadilla Ugarte, Stefanie Halter, Sumanth K Mutte, Clint Heijstek, Theophile Niault, Ilya Terenin, Patrick Barendse, Balwina Koopal, Mark Roosjen, Sjef Boeren, Vasili Hauryliuk, Martin Jinek, Adrie H Westphal, Daan C Swarts

Research output: Contribution to journal › Article › peer-review

Abstract

Prokaryotic Argonaute proteins (pAgos) from the long-A clade are stand-alone immune systems that use small interfering DNA (siDNA) guides to recognize and cleave invading plasmid and virus DNA. Certain long-A pAgos are co-encoded with accessory proteins with unknown functions. Here, we show that cyanobacterial long-A pAgos act in conjunction with Argonaute-associated Cas4 family enzyme 1 (ACE1). Structural and biochemical analyses reveal that ACE1-associated pAgos mediate siDNA-guided DNA interference, akin to stand-alone pAgos. ACE1 is structurally homologous to the nuclease domain of bacterial DNA repair complexes and acts as a single-stranded DNA endonuclease that processes siDNA guides. pAgo and ACE1 form a heterodimeric long-A pAgo-ACE1 (APACE1) complex, which modulates ACE1 activity. Although ACE1-associated pAgos alone interfere with plasmids and bacteriophages, plasmid interference is boosted when pAgo and ACE1 are co-expressed. Our study reveals that pAgo-mediated immunity is enhanced by accessory proteins and broadens our mechanistic understanding of how pAgo systems interfere with invading DNA.

Original language	English
Pages (from-to)	1920-1937.e10
Journal	Molecular Cell
Volume	85
Issue number	10
Early online date	2025 Apr 26
DOIs	https://doi.org/10.1016/j.molcel.2025.03.025
Publication status	Published - 2025

Subject classification (UKÄ)

Microbiology in the Medical Area
Molecular Biology

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10.1016/j.molcel.2025.03.025Licence: CC BY-NC

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Bobadilla Ugarte, P., Halter, S., Mutte, S. K., Heijstek, C., Niault, T., Terenin, I., Barendse, P., Koopal, B., Roosjen, M., Boeren, S., Hauryliuk, V., Jinek, M., Westphal, A. H., & Swarts, D. C. (2025). Cyanobacterial Argonautes and Cas4 family nucleases cooperate to interfere with invading DNA. Molecular Cell, 85(10), 1920-1937.e10. https://doi.org/10.1016/j.molcel.2025.03.025

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title = "Cyanobacterial Argonautes and Cas4 family nucleases cooperate to interfere with invading DNA",

abstract = "Prokaryotic Argonaute proteins (pAgos) from the long-A clade are stand-alone immune systems that use small interfering DNA (siDNA) guides to recognize and cleave invading plasmid and virus DNA. Certain long-A pAgos are co-encoded with accessory proteins with unknown functions. Here, we show that cyanobacterial long-A pAgos act in conjunction with Argonaute-associated Cas4 family enzyme 1 (ACE1). Structural and biochemical analyses reveal that ACE1-associated pAgos mediate siDNA-guided DNA interference, akin to stand-alone pAgos. ACE1 is structurally homologous to the nuclease domain of bacterial DNA repair complexes and acts as a single-stranded DNA endonuclease that processes siDNA guides. pAgo and ACE1 form a heterodimeric long-A pAgo-ACE1 (APACE1) complex, which modulates ACE1 activity. Although ACE1-associated pAgos alone interfere with plasmids and bacteriophages, plasmid interference is boosted when pAgo and ACE1 are co-expressed. Our study reveals that pAgo-mediated immunity is enhanced by accessory proteins and broadens our mechanistic understanding of how pAgo systems interfere with invading DNA.",

author = "\{Bobadilla Ugarte\}, Pilar and Stefanie Halter and Mutte, \{Sumanth K\} and Clint Heijstek and Theophile Niault and Ilya Terenin and Patrick Barendse and Balwina Koopal and Mark Roosjen and Sjef Boeren and Vasili Hauryliuk and Martin Jinek and Westphal, \{Adrie H\} and Swarts, \{Daan C\}",

year = "2025",

doi = "10.1016/j.molcel.2025.03.025",

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volume = "85",

pages = "1920--1937.e10",

journal = "Molecular Cell",

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publisher = "Cell Press",

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}

Bobadilla Ugarte, P, Halter, S, Mutte, SK, Heijstek, C, Niault, T, Terenin, I, Barendse, P, Koopal, B, Roosjen, M, Boeren, S, Hauryliuk, V, Jinek, M, Westphal, AH & Swarts, DC 2025, 'Cyanobacterial Argonautes and Cas4 family nucleases cooperate to interfere with invading DNA', Molecular Cell, vol. 85, no. 10, pp. 1920-1937.e10. https://doi.org/10.1016/j.molcel.2025.03.025

TY - JOUR

T1 - Cyanobacterial Argonautes and Cas4 family nucleases cooperate to interfere with invading DNA

AU - Bobadilla Ugarte, Pilar

AU - Halter, Stefanie

AU - Mutte, Sumanth K

AU - Heijstek, Clint

AU - Niault, Theophile

AU - Terenin, Ilya

AU - Barendse, Patrick

AU - Koopal, Balwina

AU - Roosjen, Mark

AU - Boeren, Sjef

AU - Hauryliuk, Vasili

AU - Jinek, Martin

AU - Westphal, Adrie H

AU - Swarts, Daan C

PY - 2025

Y1 - 2025

N2 - Prokaryotic Argonaute proteins (pAgos) from the long-A clade are stand-alone immune systems that use small interfering DNA (siDNA) guides to recognize and cleave invading plasmid and virus DNA. Certain long-A pAgos are co-encoded with accessory proteins with unknown functions. Here, we show that cyanobacterial long-A pAgos act in conjunction with Argonaute-associated Cas4 family enzyme 1 (ACE1). Structural and biochemical analyses reveal that ACE1-associated pAgos mediate siDNA-guided DNA interference, akin to stand-alone pAgos. ACE1 is structurally homologous to the nuclease domain of bacterial DNA repair complexes and acts as a single-stranded DNA endonuclease that processes siDNA guides. pAgo and ACE1 form a heterodimeric long-A pAgo-ACE1 (APACE1) complex, which modulates ACE1 activity. Although ACE1-associated pAgos alone interfere with plasmids and bacteriophages, plasmid interference is boosted when pAgo and ACE1 are co-expressed. Our study reveals that pAgo-mediated immunity is enhanced by accessory proteins and broadens our mechanistic understanding of how pAgo systems interfere with invading DNA.

AB - Prokaryotic Argonaute proteins (pAgos) from the long-A clade are stand-alone immune systems that use small interfering DNA (siDNA) guides to recognize and cleave invading plasmid and virus DNA. Certain long-A pAgos are co-encoded with accessory proteins with unknown functions. Here, we show that cyanobacterial long-A pAgos act in conjunction with Argonaute-associated Cas4 family enzyme 1 (ACE1). Structural and biochemical analyses reveal that ACE1-associated pAgos mediate siDNA-guided DNA interference, akin to stand-alone pAgos. ACE1 is structurally homologous to the nuclease domain of bacterial DNA repair complexes and acts as a single-stranded DNA endonuclease that processes siDNA guides. pAgo and ACE1 form a heterodimeric long-A pAgo-ACE1 (APACE1) complex, which modulates ACE1 activity. Although ACE1-associated pAgos alone interfere with plasmids and bacteriophages, plasmid interference is boosted when pAgo and ACE1 are co-expressed. Our study reveals that pAgo-mediated immunity is enhanced by accessory proteins and broadens our mechanistic understanding of how pAgo systems interfere with invading DNA.

UR - https://www.scopus.com/pages/publications/105003586701

U2 - 10.1016/j.molcel.2025.03.025

DO - 10.1016/j.molcel.2025.03.025

M3 - Article

C2 - 40288374

SN - 1097-4164

VL - 85

SP - 1920-1937.e10

JO - Molecular Cell

JF - Molecular Cell

IS - 10

ER -

Cyanobacterial Argonautes and Cas4 family nucleases cooperate to interfere with invading DNA

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